Our sun and solar system are at the very center of the image, followed by the outer ring of our Milky Way galaxy, the Perseus arm of the Milky Way, a ring of other nearby galaxies like Andromeda, the rest of the cosmic web, cosmic microwave background radiation leftover from the big bang, and finally a ring of plasma also generated by the big bang.

Logarithms help us make sense of huge numbers, and in this case, huge distances. For example, when we zoom out from 1 centimeter to 1 decimeter, then 1 decimeter to 1 meter, we've changed scales by two orders of magnitude, or 10 2.

Rather than showing all parts of the universe on a linear scale, Budassi made each chunk of the circle represent a field of view several orders of magnitude larger than the one before it. That's why the entire observable universe is able to fit inside a circle.

"Then when I was drawing hexaflexagons for my sons birthday souvenirs I started drawing central views of the cosmos and the solar system," Budassi previously told Tech Insider in an email. "That day the idea of a logarithmic view came and in the next days I was able to [assemble] it with [P]hotoshop using images from NASA and some textures created by my own."

Budassi first uploaded the image to Wikipedia on June 21, 2013. Since then he's improved the image and created a few new log scales.

One newer and equally impressive illustration shows the universe's scale in a vertical image, below. It logarithmically zooms out from infinitesimal "quantum foam" of the fabric of space (a bewildering 10-32 meters in scale) all the way up to the edges of the observable universe (which is about 10 58 larger).